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Deep-sea mining could transform the globe
 
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Gold alone found on the sea floor is estimated to be worth $150 trn. But the cost to the planet of extracting it could be severe. Check out Economist Films: http://films.economist.com/ Check out The Economist’s full video catalogue: http://econ.st/20IehQk Like The Economist on Facebook: https://www.facebook.com/TheEconomist/ Follow The Economist on Twitter: https://twitter.com/theeconomist Follow us on Instagram: https://www.instagram.com/theeconomist/ Follow us on LINE: http://econ.st/1WXkOo6 Follow us on Medium: https://medium.com/@the_economist
Views: 65243 The Economist
Scientists fear deep-sea mining
 
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Scientists fear that even before one of the last frontiers of exploration, the ocean deep, has been properly studied it will already have been exploited by commercial deep-sea mining looking for rare euronews knowledge brings you a fresh mix of the world's most interesting know-hows, directly from space and sci-tech experts. Subscribe for your dose of space and sci-tech: http://www.youtube.com/subscription_center?add_user=euronewsknowledge Made by euronews, the most watched news channel in Europe.
Views: 7998 euronews Knowledge
TechKnow - Deep sea gold rush
 
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Oceans cover 70 percent of the earth's surface, but only a fraction of the undersea world has been explored. On this episode of TechKnow, Phil Torres joins a team of scientists on a special expedition to explore and uncover the mysteries at the bottom of the ocean floor. "What we are doing is similar to astronauts and planetary scientists just trying to study life on another planet," says Beth Orcutt, a senior research scientist. The journey begins in Costa Rica aboard the R/V Atlantis, a research vessel operated by the Woods Hole Oceanographic Institution. From there, Phil gets the chance to take a dive with Alvin, a deep-water submersible capable of taking explorers down to 6,000 metres (20,000 feet) under the sea. Commissioned in 1964, Alvin has a celebrated history, locating an unexploded hydrogen bomb off the coast of Spain and exploring the famous RMS Titanic in the 1980s. Alvin and its first female pilot, Cindy Van Dover, were the first to discover hydrothermal vents, which are underwater springs where plumes of black smoke and water pour out from underneath the earth's crust. The vents were inhabited by previously unknown organisms that thrived in the absence of sunlight. After 40 years of exploration, Alvin got a high-tech upgrade. The storied submersible is now outfitted with high-resolution cameras to provide a 245-degree viewing field and a robotic arm that scientists can use to pull samples of rock and ocean life to then study back on land. But scientists are not the only ones interested in the ocean. These days the new gold rush is not in the hills, it is in the deep sea. For thousands of years miners have been exploiting the earth in search of precious metals. As resources on dry land are depleted, now the search for new sources of metals and minerals is heading underwater. The National Oceanic and Atmospheric Administration's national ocean service estimates that there is more than $150tn in gold waiting to be mined from the floor of the world's oceans. "The industry is moving very, very fast. They have far more financial resources than the scientific community," says Cindy Van Dover, Alvin's first female pilot and Duke University Oceanography Professor. Seabed mining is still in the planning stages, but Nautilus Minerals, a Canadian mining company, says it has the technology and the contracts in place with the island nation of Papua New Guinea to start mining in its waters in about two years. What is the future of seabed mining? And what are the consequences of seabed mining for the marine ecosystems? Can science and industry co-exist and work together on viable and sustainable solutions? - Subscribe to our channel: http://bit.ly/AJSubscribe - Follow us on Twitter: https://twitter.com/AJEnglish - Find us on Facebook: https://www.facebook.com/aljazeera - Check out our website: http://www.aljazeera.com/
Views: 80061 Al Jazeera English
NOS uitzending over deep-sea mining
 
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Koper, ijzer, goud - deze grondstoffen worden steeds duurder en schaars. Dat is waarom bedrijven zoals IHC Merwede op zoek zijn naar manieren om deze grondstoffen te winnen. De komende jaren wordt gestreefd naar het veroveren van de zeebodem met de inzet van robots.
Views: 1706 Royal IHC
World's First Deep-Sea Mining Project A Go
 
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Canadian company Nautilus Minerals has received the green light to start mining for gold and copper a mile down. The company will be working off the coast of Papua New Guinea. The job has environmental activists more than concerned. Mashable content. http://www.mashable.com LIKE us on FACEBOOK: http://facebook.com/mashable.video FOLLOW us on TWITTER: http://twitter.com/mashablevideo FOLLOW us on TUMBLR: http://mashable.tumblr.com FOLLOW our INSTAGRAM: http://instagram.com/mashable JOIN our circle on GOOGLE PLUS: http://plus.google.com/+Mashable Subscribe!: http://bit.ly/1ko5eNd Mashable is the leading independent news site for all things tech, social media, and internet culture. http://www.youtube.com/mashable
Views: 1780 Mashable
ENS351 Deep Sea Mining
 
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Description
Views: 8026 brooke Frohloff
Seabed Mining in the Deep Sea
 
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(Visit: http://www.uctv.tv/) 0:16 - Main Presentation - Lisa Levin 28:24 - Audience Discussion Given the growing demand for deep sea metals created by electronic and green technologies, scientists are faced with decisions about whether to engage in baseline and impacts research that enables development of a new extraction industry, and whether to contribute expertise to the development of environmental protections and guidelines. Lisa A. Levin, distinguished professor of biological oceanography at the Scripps Institution of Oceanography, University of California, San Diego, addresses the ethical and societal challenges of exploitation in a relatively unknown realm. Series: "Exploring Ethics" [6/2018] [Show ID: 32160]
Chinese Deep-sea Mining Vehicle Sees Successful Trial
 
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Diving to depths few men have gone before, Chinese researchers on the Hai Yang Liu Hao expedition conducted a successful trial of a mining vehicle at depths of about 2,500 meters, before returning to Guangzhou on Thursday. More on: http://www.cctvplus.com/news/20190516/8110894.shtml#!language=1 Welcome to subscribe us on: Facebook: https://www.facebook.com/NewsContent.CCTVPLUS Twitter: https://twitter.com/CCTV_Plus LinkedIn: https://www.linkedin.com/company/cctv-news-content Instagram: https://www.instagram.com/cctvnewscontent/ Video on Demand: www.cctvplus.com If you are in demand of this video footage, please contact with our business development team via email: [email protected]
Deep Sea Mining: Searching for the Next Mineral Boom
 
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Deep down, way deep down, there's something stirring - something very, very valuable. It's a race to the bottom - to the bottom of the oceans. It is Deep Sea Mining. As deep as 5000 metres, maybe more, lie a host of materials critical for modern society, from smartphones to electric cars to green energy. But how can be it be mined without ruining another beautiful, so-far untouched - yet valuable part of our planet? Joining us on skype from Kingston, Jamaica Michael Lodge, Secretary-General at the International Seabed Authority; from Washington DC, Conn Nugent, Project Director of Seabed Mining Project at the Pew Charitable Trusts; Regan Drennan, Research Assistant at UK Seabed Resource who studies the biodiversity of the ocean floor; Charlotte Middlehurst, a Contributing Editor at China Dialogue, focusing on China's growing interest in deep sea mining. Roundtable is a discussion programme with an edge. Broadcast out of London and presented by David Foster, it's about bringing people to the table, listening to every opinion, and analysing every point of view. From fierce debate to reflective thinking, Roundtable discussions offer a different perspective on the issues that matter to you. Watch it every weekday at 15:30 GMT on TRT World. #mining #seabed #biodiversity Subscribe: http://trt.world/Roundtable Livestream: http://trt.world/ytlive Facebook: http://trt.world/facebook Twitter: http://trt.world/twitter Instagram: http://trt.world/instagram Visit our website: http://trt.world
Views: 1523 Roundtable
Deep-sea mining: vital resource or environmental disaster?
 
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Watch more here: https://rethink.ft.com/ Surging demand for the metals used in electric car batteries is setting off a race to mine the deep seas. As the FT’s Henry Sanderson explains, the sea floor could contain more nickel, cobalt and rare earth metals than all land-based reserves combined. Miners say it may diversify supply, but environmentalists fear mining will do irreparable damage.
Views: 16433 FT Rethink
HUGHES GLOMAR EXPLORER   MINING MINERALS IN THE DEEP OCEAN  MAGANESE NODULE RECOVERY  22324
 
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“Oceanography: Mining Mineral In The Ocean” is an issue of the Science Screen Report, presented by United Technologies Sikorsky Aircraft, that discusses the potential and problems of have deep-sea mining for minerals. The issue opens with shots of the sea, which is a “reserve of global resources,” including metals from deep-sea nodules (polymetallic nodules). These nodules cover vast areas of the sea bottom, and their potential is the reason for a major deep-ocean project being carried out. Deep Sea Nodules can be the size of potatoes, and their porous structure accumulates layers of various metals. They are very slow growing, but sizeable nodules cover areas of the sea floor, providing a significant reserve of metals. As part of the project to determine the mining feasibility of nodules, the first self-propelled robot miner (01:38) is developed and tested. Scientists examine nodules in a lab (02:52), but to answer a number of questions surrounding them, the National Science Foundation uses Research Vessel Melvillle (03:12) to carry out underwater tests. Members of the crew lower sound beacons to create a grid (03:35). Then a robot mapping vehicle is lowered into the water to gather data within the grid. In the control room (04:10), the team monitors the robot’s data. The next step is the collection of sea floor samples (05:08); a box corer is lowered into the water to gather sample nodules, transporting nodules and their environment to the surface. Scientists examine the contents, conduct tests, and record data. The results indicate nodules may grow similar to coral. Next, piston corers (06:52) are used to take out samples of core sections of the floor to add to the mission’s overall understanding. After two weeks, the samples and data are collected, stored, and made accessible to over 50 research centers throughout the world. The next phase involves exploration ship Governor Ray (08:06), which monitors a sea mining research site, and Glomar Explorer (08:22), a surface platform ship (originally built as a deep-sea recovery platform for the CIA as part of Project Azorian also known as Project Jennifer) with an internal dry dock that holds the advanced robot miner. The crew preps for launch day by filling the dry dock, opening the doors (11:00), and moving the robot miner into the water. The robot miner hangs under the ship as pipe attachments are installed, connecting the miner and processor to transport nodule slurry. The robot miner is positioned and the processor is attached to it, enabling the mining operation to begin (12:18). Sonar and TV images show how easily the miner collects nodules as is moves across sea floor capturing images and harvesting nodules, which are crushed into a slurry and piped up to the ship. A commercial miner would be 10 times the size of the robot miner, but the smaller robot miner is the first step in the eventual commercial mining of the sea’s unique nodules. Background on this ... historic film is that it shows techniques used to conduct deep ocean mining of the sea floor, which were pioneered in the 1960s. The potential for this type of mining (particularly of manganese nodules) was never fully realized. Ironically, the program did end up providing the cover for the USNS Hughes Glomar Explorer (T-AG-193), a deep-sea drillship platform built for the United States Central Intelligence Agency Special Activities Division secret operation Project Azorian to recover the sunken Soviet submarine K-129, lost in April 1968. Hughes Glomar Explorer (HGE), as the ship was called at the time, was built between 1973 and 1974, by Sun Shipbuilding and Drydock Co. for more than US$350 million at the direction of Howard Hughes for use by his company, Global Marine Development Inc. This is equivalent to $1.67 billion in present-day terms. She set sail on 20 June 1974. Hughes told the media that the ship's purpose was to extract manganese nodules from the ocean floor. This marine geology cover story became surprisingly influential, spurring many others to examine the idea. But in sworn testimony in United States district court proceedings and in appearances before government agencies, Global Marine executives and others associated with Hughes Glomar Explorer project unanimously maintained that the ship could not be used in any economically viable ocean mineral operation. This film is part of the Periscope Film LLC archive, one of the largest historic military, transportation, and aviation stock footage collections in the USA. Entirely film backed, this material is available for licensing in 24p HD, 2k and 4k. For more information visit http://www.PeriscopeFilm.com
Views: 1374 PeriscopeFilm
The Next Frontier in Mining: Deep Sea Exploitation in the Pacific
 
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The ocean has a wealth of resources. From food, to travel, to pharmaceutical needs, and to energy, the ocean has always provided for mankind. And now, mankind is turning to the ocean for minerals and metals needed for the technology we use in our everyday lives. An exploration into the emerging industry of deep sea mining leads to more questions than answers. Read more: http://pulitzercenter.org/projects/underwater-mining-pacific-ocean
Views: 1794 Pulitzer Center
Race to the bottom? India plans deep dive for seabed minerals
 
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In the 1870 Jules Verne classic "20,000 Leagues Under the Sea", underwater explorer Captain Nemo predicted the mining of the ocean floor's mineral bounty - zinc, iron, silver and gold. India is catching up with that only now, as it prepares to unearth treasures down below, aiming to boost its economy. The floor of the world's seas is scattered with vast beds of black potato-shaped polymetallic nodules comprising copper, nickel, cobalt, manganese, iron and rare earth elements. These natural goodies are key to making modern gadgets, from smartphones and laptops to pacemakers, hybrid cars and solar panels. As expanding technology and infrastructure fuel global demand for these resources - whose supply is dwindling fast onshore - more and more countries, including manufacturing powerhouses India and China, are eyeing the ocean. Read full story: http://www.thisisplace.org/i/?id=422fdb8b-c6d4-4620-a6d7-1754aca1f9c8 ABOUT THOMSON REUTERS FOUNDATION The Thomson Reuters Foundation acts to promote the highest standards in journalism and spread the practice of legal pro bono worldwide. The organisation runs free services that provide individuals and organisations with vital access to information and services around the globe: free legal assistance to NGOs and social enterprises, editorial coverage of the world’s under-reported news, media development and training, and Trust Conference (http://www.trustconference.com). Read our news: http://news.trust.org/ Learn more: http://www.trust.org/ Follow us on Twitter: https://twitter.com/TR_Foundation or Facebook: https://www.facebook.com/Thomson.Reuters.Foundation/ We welcome all comments that contribute constructively to the debate. We have the right to remove any posting if, in our opinion, your post does not comply with the content standards set out in the Acceptable Use Policy on http://news.trust.org/.
Advance Nauru Deep Sea Mining
 
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The government of Nauru is going to new depths to build more revenue for the future of the country by joining a pioneering venture that could soon power the world’s green economy.
Views: 1205 Nauru TV News
Deep Sea Mining (Research In Manoa)
 
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The applicable science and law. A discussion with Professor Philomene Verlaan, who is a scientist and a lawyer, on the status and prospects of deep sea mining of ferro-manganese nodules on the sea bed near Hawaii and elsewhere. The host for this episode is Jay Fidell. The guest for this episode is Philomene Verlaan. ThinkTech Hawaii streams live on the Internet from 11:00 am to 5:00 pm every weekday afternoon, Hawaii Time, then streaming earlier shows through the night. Check us out any time for great content and great community. Our vision is to be a leader in shaping a more vital and thriving Hawaii as the foundation for future generations. Our mission is to be the leading digital media platform raising public awareness and promoting civic engagement in Hawaii.
Views: 229 ThinkTech Hawaii
deep sea mining
 
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Views: 80 jmlast1
ABC Catalyst S12E16 Deep Sea Mining
 
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A documentary segment about hydrothermal vents on the ocean floor. No copyright infringement intended. Video remains property of ABC.
Views: 14096 ironfalcon100
Breaking News | Anglo American to end investment in deep sea mining company Nautilus
 
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Breaking News | Anglo American to end investment in deep sea mining company Nautilus Breaking News | Anglo American to end investment in deep sea mining company Nautilus (Reuters) - Diversified miner Anglo American (AAL.L) said on Friday it will end its investment in deep sea mining company Nautilus Mining (NUS.TO). FILE PHOTO: The Anglo American logo is seen in Rusternburg October 5, 2015. Picture taken October 5, 2015. REUTERS/Siphiwe Sibeko/File Photo “We are exiting our small minority shareholding in Nautilus, as part of the prioritisation of our portfolio on our largest and greatest potential resource assets,” Anglo spokesman James Wyatt-Tilby said, confirm... SUBSCRIBE To Our Channel : https://www.youtube.com/channel/UCPMjaOmdSqkcKmrntN5TF4Q Facebook : https://www.facebook.com/World-Breaking-News-1801911953358902/ Twitter : https://twitter.com/trinhhuuminhly Google+ : https://plus.google.com/u/0/101746655803030079868 Pinterest : https://www.pinterest.com/adanjanuzai/ Wedsite : http://www.bbc.com/news Instagram : https://www.instagram.com/world_breaking_news_tv/ Source : http://c.newsnow.co.uk/A/2/936419095?-: Thanks For Watching Video. Please SUBSCRIBE
Views: 46 Breaking News 24/7
Legal Pathways for Addressing Environmental Harm in Deep Seabed Mining Activities
 
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Everyone is aware of off-shore oil rigs; these platforms drill down underwater for valuable resources just off the coast of many nations. But, deep in the ocean beyond national aquatic boundaries lies an abundance of natural resources such as gold, copper, manganese and zinc. State-sponsored companies are surveying and staking claim to these resources, but so far, no one has been granted approval to begin extracting them. The International Seabed Authority (ISA) — the governing body that oversees all activities in international waters (known as the Area) — is currently developing regulations for the extraction of marine minerals. Rules and procedures that govern liability for damage arising from mining activities will be crucial aspect of this regulatory framework. Who is responsible when an environmental disaster occurs as a result of mining activities? To assist in clarifying these legal issues of responsibility and liability, the Centre for International Governance Innovation (CIGI), the Commonwealth Secretariat and the Secretariat of the International Seabed Authority established the Liability Issues for Deep Seabed Mining project. Under the direction of Neil Craik (CIGI), Hannah Lily (Commonwealth Secretariat) and Alfonso Ascencio-Herrera (ISA Secretariat), this project seeks to provide a foundational understanding of key questions surrounding the further development of liability rules. For media inquiries, usage rights or other questions please contact CIGI: https://www.cigionline.org/contact/
The deep ocean is the final frontier on planet Earth | The Economist
 
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Watch the latest in the Ocean series - How sea cucumbers can help the ocean: https://youtu.be/VCsD7NcQV1w The ocean covers 70% of our planet. The deep-sea floor is a realm that is largely unexplored, but cutting-edge technology is enabling a new generation of aquanauts to go deeper than ever before. Click here to subscribe to The Economist on YouTube: http://econ.trib.al/rWl91R7 Beneath the waves is a mysterious world that takes up to 95% of Earth's living space. Only three people have ever reached the bottom of the deepest part of the ocean. The deep is a world without sunlight, of freezing temperatures, and immense pressure. It's remained largely unexplored until now. Cutting-edge technology is enabling a new generation of aquanauts to explore deeper than ever before. They are opening up a whole new world of potential benefits to humanity. The risks are great, but the rewards could be greater. From a vast wealth of resources to clues about the origins of life, the race is on to the final frontier The Okeanos Explorer, the American government state-of-the-art vessel, designed for every type of deep ocean exploration from discovering new species to investigating shipwrecks. On board, engineers and scientists come together to answer questions about the origins of life and human history. Today the Okeanos is on a mission to investigate the wreck of a World War one submarine. Engineer Bobby Moore is part of a team who has developed the technology for this type of mission. The “deep discover”, a remote operating vehicle is equipped with 20 powerful LED lights and designed to withstand the huge pressure four miles down. Equivalent to 50 jumbo jets stacked on top of a person While the crew of the Okeanos send robots to investigate the deep, some of their fellow scientists prefer a more hands-on approach. Doctor Greg stone is a world leading marine biologist with over 8,000 hours under the sea. He has been exploring the abyss in person for 30 years. The technology opening up the deep is also opening up opportunity. Not just to witness the diversity of life but to glimpse vast amounts of rare mineral resources. Some of the world's most valuable metals can be found deep under the waves. A discovery that has begun to pique the interest of the global mining industry. The boldest of mining companies are heading to the deep drawn by the allure of a new Gold Rush. But to exploit it they're also beating a path to another strange new world. In an industrial estate in the north of England, SMD is one of the world's leading manufacturers of remote underwater equipment. The industrial technology the company has developed has made mining possible several kilometers beneath the ocean surface. With an estimated 150 trillion dollars’ worth of gold alone, deep-sea mining has the potential to transform the global economy. With so much still to discover, mining in the deep ocean could have unknowable impact. It's not just life today that may need protecting; reaching the deep ocean might just allow researchers to answer some truly fundamental questions. Hydrothermal vents, hot springs on the ocean floor, are cracks in the Earth's crust. Some claim they could help scientists glimpse the origins of life itself. We might still be years away from unlocking the mysteries of the deep. Even with the latest technology, this kind of exploration is always challenging. As the crew of the Okeanos comes to terms with a scale of the challenge and the opportunity that lies beneath, what they and others discover could transform humanity's understanding of how to protect the ocean. It's the most hostile environment on earth, but the keys to our future may lie in the deep. Check out Economist Films: http://films.economist.com/ Check out The Economist’s full video catalogue: http://econ.st/20IehQk Like The Economist on Facebook: https://www.facebook.com/TheEconomist/ Follow The Economist on Twitter: https://twitter.com/theeconomist Follow us on Instagram: https://www.instagram.com/theeconomist/ Follow us on LINE: http://econ.st/1WXkOo6 Follow us on Medium: https://medium.com/@the_economist
Views: 3399109 The Economist
Marine robot provides evidence for whales in areas targeted for deep-sea mining
 
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To learn more about this research follow the link below to read a news item on our website https://noc.ac.uk/news/marine-robot-provides-tantalising-evidence-deep-diving-whales-areas-targeted-deep-sea-mining
Views: 169 NOC news
Deep sea mining: Seas At Risk's statement at the UN Ocean Conference
 
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At the Ocean Conference of the United Nations, Seas At Risk, supported by its 34 members and Mission Blue, BLOOM, the Deep Sea Mining Campaign and Earthworks, called on the international community to stop deep sea mining in its tracks.
Views: 423 Seas At Risk
PNG DEEP SEA MINING BBC NEWS AT TEN
 
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Plans for the world's first deep sea mine are taking shape in the waters off Papua New Guinea. The ocean floor is rich in gold, copper and other minerals in big demand around the world. But some scientists warn that digging up the seabed will destroy marine life, and Sir David Attenborough is among those objecting. BBC News science editor David Shukman reports.
Views: 3562 David Shukman
Deep sea mining!? Leave my down below alone!
 
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Mr Smashing makes a comeback with a deep sea mining disco love song. Destroying the deep sea to get metals for our throw-away mobile phones and other e-devices? Seas At Risk thinks it is better to step up efforts on the circular economy – make devices repairable, re-usable, recyclable. Use mineral resources more efficiently and keep them in the economy loop instead of wasting them. In our leaflet ‘Deep sea mining? Stop and think!’ you can read why we think deep sea mining has no place in the world’s Agenda 2030 for sustainable development. Let’s focus on creating a circular economy instead! http://www.seas-at-risk.org/images/pdf/Infographics/DSM-PDF-leaflet-light.pdf
Views: 8296 Seas At Risk
Deep Sea Mining Implications
 
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Lecture on the implications of industrial scale deep ocean mining on species rich abyssal and benthic ecosystems within the aphotic zones of the ocean in light of predicted peak mineral trends and estimated demands based on a "throw-away" economical system.
Deep Sea Fish Farming in Geodesic Domes: Upgrade
 
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In this episode of Upgrade, Motherboard goes to Baja California, Mexico to get a firsthand look at these free floating pods, and to get an understanding for why we need better ways to cultivate our future food sources. Whether it’s found on a plate of sushi, grilled in our backyard, or thrown on pasta, seafood is a staple for many diets around the world, and demand is growing. And as the commercial seafood industry booms, fish stocks worldwide face perilous declines. We’ve surpassed our capacity to sustainably fish wild caught fish, shrimp, and mollusks from the ocean, and so we’ve turned to aquaculture, or fish farming, as a strategy to meet demand for our growing appetites for water-borne critters. The aquaculture industry is growing fast. According to the FAO, per capita production of seafood from aquaculture has increased 6.9 percent annually since 1970. Unfortunately for us and for our Earth, current methods of fish farming often involve crowded, tethered pens, which can have poor water circulation and contribute to the spread of disease, and put large amounts of environmental stress on the surrounding waterways. This is where Steve Page of Ocean Farm Technologies comes in. Taking inspiration from naturally-occurring schools of fish and Buckminster Fuller’s geodesic domes, Page co-designed the Aquapod, a free floating, untethered deep ocean fish habitat which reduces overcrowding, and creates less stress on surrounding environments due to its unique ability to change location with the ocean's current. Subscribe to MOTHERBOARD: http://bit.ly/Subscribe-To-MOTHERBOARD Follow MOTHERBOARD Facebook: http://www.facebook.com/motherboardtv Twitter: http://twitter.com/motherboard Tumblr: http://motherboardtv.tumblr.com/ Instagram: http://instagram.com/motherboardtv
Views: 2404880 Motherboard
Deep Sea Mining under EU Law
 
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The video is part of the Workshop "Limits to Blue Growth in the Deep Sea" at the European Maritime Day, held in Bremen, Germany on 19 May 2014 organised by World Wide Fund for Nature (WWF) and the Institute for the Law of the Sea and International Marine Environmental Law (ISRIM).
Views: 269 ISRIM
DEEP SEA MINING - destroying the oceans
 
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DEEP SEA MINING - deep ocean mining just around the corner. w​hile deep sea minerals could provide much needed revenue for several pacific island nations questions remain about the impacts of mining on the marine environment and the many communities that depend on it for their livelihoods. breaking the surface - the future of deep sea mining in the pacific. - david heydon founder & chairman of deepgreen resources discusses the brave new world of deep ocean mining in international waters. png locals fight sea mining project. several pacific island nations are eagerly eyeing up the potential economic benefits from valuable deep sea mineral resources that have been discovered within their maritime territories. the world’s first ever deep sea mining operation is scheduled to begin offshore from the pacific island nation of papua new guinea in early 2018. deep ocean mining: the new frontier. under pressure: deep sea minerals in the pacific. an exploration into the emerging industry of deep sea mining leads to more questions than answers... deep sea mining.
Views: 941 Love Science
What is Deep Sea Mining? Ep 3.: The Azores Case
 
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Inhabitants is an online video for exploratory video and documentary reporting. Follow us: Website: inhabitants-tv.org/ Facebook: facebook.com/inhabitantstv/ YouTube: youtube.com/channel/UCt0fB6C18nwzRwdudiC8sGg ENG (see below for Portuguese) The third episode of the web series What is Deep Sea Mining? is set on the Azores archipelago, an autonomous region of Portugal located in the North Atlantic Ocean. Composed of nine volcanic islands that once thrived on the whaling industry, the Azores have since become a hot spot for research in marine biology due to its diverse ecosystems, as it is located above an active triple junction between the Eurasian, African, and North-American tectonic plates. In 2008, one year before Portugal submitted its proposal to extend its continental shelf to the United Nations, the Canadian mining company Nautilus Minerals Inc. presented a proposal for mineral prospection and exploration in six areas off the coast of the Azores. Despite the fact that deep sea mining continues to be under debate between different governmental bodies, no effort was done to inform the wider public or local citizens about such plans. For this episode we interviewed different specialists in marine biology based in the islands, among them José Nuno Gomes-Pereira, Teresa Cerqueira, Telmo Morato, and Gisela Dionísio, as well as member of the European Parliament Ricardo Serrão Santos, on the potential impacts of deep sea mining on local ecosystems and on the archipelago’s economical reality. What is Deep Sea Mining? is developed in collaboration with Margarida Mendes, curator and activist from Lisbon, Portugal, and founding member of Oceano Livre environmental movement against deep sea mining. What is Deep Sea Mining? is a web series commissioned by TBA21–Academy.  Acknowledgements: Aurora Ribeiro, Espaço Talassa, Gisela Dionísio, Gonçalo Carvalho, Gonçalo Tocha, Henrique Ramos, Joana Borges Coutinho, José Nuno Gomes-Pereira, Luis Rodrigues, Márcia Dutra, Museu da Horta, Museu do Pico, Naturalist, Norberto, Ricardo Serrão Santos, Serge Viallelle, Telmo Morato, Tomás Melo, Quinta do bom despacho, and everyone who helped this web series. Special thanks to: Markus Reymann, Stefanie Hessler, and Filipa Ramos.  PT Para o terceiro episódio da série What is Deep Sea Mining?/ O que é a mineração em mar profundo? viajámos até ao arquipélago dos Açores, território autónomo de Portugal situado no Atlântico norte. Composto por nove ilhas vulcânicas outrora famosas pela indústria da baleação, os Açores tornaram-se entretanto um local de destaque para a investigação em biologia marinha, visto que ao se localizar sobre a Dorsal Mesoatlântica, entre as placas tectónicas Euroasiática, Africana e Norte Americana, a região apresenta uma grande diversidade de ecossistemas. Em 2008, um ano antes de Portugal propor às Nações Unidas o aumento da sua placa continental, a companhia de mineração Canadiana Nautilus Minerals Inc. apresentou uma proposta para prospeção e potencial exploração de minerais em mar profundo em seis áreas ao largo dos Açores. Apesar da mineração em mar profundo ser alvo de debate entre vários representantes governamentais, não foi feito qualquer esforço para informar os cidadãos locais e o público em geral de tais planos. Para este episódio entrevistámos diferentes especialistas em biologia marinha baseados nas ilhas, entre estes José Nuno Gomes-Pereira, Teresa Cerqueira, Telmo Morato e Gisela Dionísio, bem como o eurodeputado Ricardo Serrão Santos, para saber mais sobre os potenciais impactos da mineração em mar profundo nos ecossistemas locais e na realidade económica da região. What is Deep Sea Mining? é uma série desenvolvida em colaboração com Margarida Mendes, curadora e ativista de Lisboa, Portugal, e membro fundador do movimento ambientalista contra a mineração em mar profundo, Oceano Livre. What is Deep Sea Mining? é uma comissão de TBA21–Academy. Agradecimentos: Aurora Ribeiro, Espaço Talassa, Gisela Dionísio, Gonçalo Carvalho, Gonçalo Tocha, Henrique Ramos, Joana Borges Coutinho, José Nuno Gomes-Pereira, Luis Rodrigues, Márcia Dutra, Museu da Horta, Museu do Pico, Naturalist, Norberto, Ricardo Serrão Santos, Serge Viallelle, Telmo Morato, Tomás Melo, Quinta do bom despacho, and everyone who helped this web series. Um agradecimento especial a: Markus Reymann, Stefanie Hessler, and Filipa Ramos.
Views: 404 Inhabitants
Seabed Mining In The Deep – What Is There? Is It Profitable? Is It Time To Join The Gold Rush?
 
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Does seabed mining make economic sense? What are the environmental and commercial risks if this goes ahead? Who will lose money on seabed mining? Why do you think this matters to coastal investors and ocean lovers? Carl Gustaf Lundin, Principal Marine and Polar Scientist, IUCN. You can view this video and the full video archive on the Dukascopy TV page: http://www.dukascopy.com/tv/en/#262499 Смотрите Dukascopy TV на вашем языке: http://www.youtube.com/user/dukascopytvrussian 用您的语言观看杜高斯贝电视: http://www.youtube.com/user/dukascopytvchinese Miren Dukascopy TV en su idioma: http://www.youtube.com/user/dukascopytvspanish Schauen Sie Dukascopy TV in Ihrer Sprache: http://www.youtube.com/user/dukascopytvgerman Regardez la Dukascopy TV dans votre langue: http://www.youtube.com/user/dukascopytvfrench Veja a TV Dukascopy na sua língua: http://www.youtube.com/user/dukascopytvpt
Views: 175 Dukascopy TV (EN)
DEEP SEA MINING | Ocean Mining
 
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Try to balance the struggles of making a profit while only making a minimal impact on the environment. https://crystalline-green-ltd.itch.io/ocean-mining Don't forget to like, comment and subscribe. Twitter: https://twitter.com/yeager11981 Wanna play with me? Steam: Yeagerbr Xbox Gamertag: Yeagerbr 3DS Friend code: 3196-4238-0461
Views: 344 Yeagerbr
ROSUB-6000, India's deep sea exploration underwater rover [Russian joint-venture]
 
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The ROSUB-6000 is an deep-sea mineral exploration unmanned vehicle developed jointly by India's National Institute of Ocean Technology [NIOT], based in Chennai, Tamil Nadu & Russia's Experimental Design Bureau of Oceanological Engineering [EDBOE]. With the development of this rover, India becomes one of the very few nations in the world to posses the capability to undertake mineral exploration at such great depths of the ocean floor. National Institute of Ocean Technology [NIOT] http://www.niot.res.in/ Experimental Design Bureau of Oceanological Engineering [EDBOE] http://www.edboe.ru/index_e.htm ROSUB-6000 Moi Blog: AA Me, IN http://www.aame.in/ YouTube Channel: Luptonga http://YouTube.Com/Luptonga
Views: 2208 Luptonga
final project deep sea mining
 
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Final Project 2018 Bio
Views: 13 Danielle Kettman
What is Deep Sea Mining? A web series. Episode 2: Deep Frontiers
 
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Inhabitants is an online video for exploratory video and documentary reporting. Follow us: Website: http://inhabitants-tv.org/ Facebook: facebook.com/inhabitantstv/ YouTube: youtube.com/channel/UCt0fB6C18nwzRwdudiC8sGg instagram: inhabitants_tv #inhabitants Written by anthropologist Stefan Helmreich, What is Deep Sea Mining? Episode 2: Deep Frontiers is a brief history about knowledge of the deep sea and its resources. It highlights the ambiguity of this history, as depictions of the deep changed throughout the nineteenth and twentieth centuries. Today, this knowledge informs discussions about the commercialization of biological and geological resources, with the deep sea fast becoming a zone of international dispute, opening up a debate about sustainable practices at sea. What is Deep Sea Mining? is a five episode web series dedicated to the topic of deep sea mining, a new frontier of resource extraction at the bottom of the ocean, set to begin in the next few years. Deep sea mining will occur mainly in areas rich in polymetallic nodules, in seamounts, and in hydrothermal vents. Mining companies are already leasing areas in national and international waters in order to extract minerals and metals such as manganese, cobalt, gold, copper, iron, and other rare earth elements from the seabed. Main sites targeted for future exploration are the mid-atlantic ridge and the Clarion Clipperton Zone (Pacific ocean) in international waters, as well as the islands of Papua New Guinea, Fiji, Tonga, New Zealand, Japan, and the Portuguese Azores archipelago. Yet, potential impacts on deep sea ecosystems are yet to be assessed by the scientific community, and local communities are not being consulted. The prospects of this new, experimental form of mining are re-actualizing a colonial, frontier mentality and redefining extractivist economies for the twenty-first century. This web series addresses different issues related to this process, from resource politics to ocean governance by international bodies, prompting today’s shift towards a "blue economy" but also efforts to defend sustained ocean literacy when the deep ocean, its species, and resources remain largely unmapped and unstudied. Stefan Helmreich is Professor of Anthropology at MIT. He is the author of Alien Ocean: Anthropological Voyages in Microbial Seas, and, most recently, of Sounding the Limits of Life: Essays in the Anthropology of Biology and Beyond (Princeton University Press, 2016). His essays have appeared in Critical Inquiry, Representations, American Anthropologist, Cabinet, and The Wire. What is Deep Sea Mining? is developed in collaboration with Margarida Mendes, curator and activist from Lisbon, Portugal, and founding member of Oceano Livre environmental movement against deep sea mining. It was commissioned and funded by TBA21 - Academy and premiered at the 2018 New Museum Triennial: Songs for Sabotage. For more information and links to NGOs, advocacy, and activist groups involved in deep sea mining visit: deepseaminingoutofourdepth.org/the-last-frontier/ savethehighseas.org/deep-sea-mining/ deepseaminingwatch.msi.ucsb.edu/#!/intro?view=-15|-160|2||1020|335 oceanolivre.org/ facebook.com/Alliance-of-Solwara-Warriors-234267050262483/ Acknowledgements: Stefan Helmreich, Matt Gianni, and everyone who helped this web series. Special thanks to: Markus Reymann, Stefanie Hessler, and Filipa Ramos. Commissioned by TBA21 - Academy. FB: TBA21–Academy @TBA.Academy Instagram: @tba21academy web: tba21.org/ tba21.org/#tag--Academy--282 #deepseamining
Views: 535 Inhabitants
Overview on Deep Water Drilling
 
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Animation of deepwater drilling
Views: 1451694 edpoperators
Under Pressure: Deep Sea Minerals in the Pacific
 
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Several Pacific Island nations are eagerly eyeing up the potential economic benefits from valuable deep sea mineral resources that have been discovered within their maritime territories. With a recent surge in commercial interest the Pacific has now become the centre of an international debate over whether the sustainable economic benefits for Pacific Islanders will outweigh the environmental risks of harvesting these precious metals from the bottom of the sea. This short film examines the issue from a number of key perspectives including; anti-deep sea mining NGO's; politicians; government agencies; deep sea mining companies and; the Secretariat of the Pacific Community.
Views: 12559 Steve Menzies
Deep sea robots reveal mineral riches in the abyss
 
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From the safety of their research vessel, scientists are exploring one of Earth's last frontiers – the sea floor – to discover more about valuable minerals vital in the manufacture of smartphones. Subscribe to us on YouTube: https://goo.gl/lP12gA Download our APP on Apple Store (iOS): https://itunes.apple.com/us/app/cctvnews-app/id922456579?l=zh&ls=1&mt=8 Download our APP on Google Play (Android): https://play.google.com/store/apps/details?id=com.imib.cctv Follow us on: Website: https://www.cgtn.com/ Facebook: https://www.facebook.com/ChinaGlobalTVNetwork/ Instagram: https://www.instagram.com/cgtn/?hl=zh-cn Twitter: https://twitter.com/CGTNOfficial Pinterest: https://www.pinterest.com/CGTNOfficial/ Tumblr: http://cctvnews.tumblr.com/ Weibo: http://weibo.com/cctvnewsbeijing
Views: 352 CGTN
Innovative Technology for Exploration of Deep Sea Resources: 4K Digest version
 
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The Cross-ministerial Strategic Innovation Promotion Program (SIP) is a national project under the Council for Science, Technology and Innovation (CSTI) to promote advancements of science,technology and innovation in Japan. Our program, "Innovative Technology for Exploration of Deep Sea Resources", is one of issue in the eleven issues of the second term. In this research program jointly promoted by eight ministries and agencies, we aim to develop innovative technologies for exploration of deep sea resources. There are a variety of marine resources under the deep seafloor surrounding the Japanese islands. As a result of recent studies, potential sites of rare-earth deposits which are one of the valuable marine resources and essential for the sustainable development of our society have been identified under the seafloor at the depth between 2,000m and 6,000m in the Japanese Exclusive Economic Zone (EEZ). These technologies will be transferred to industry, with a view to formulating a business model toward the future.
Views: 520 jamstecchannel
Under Pressure - Deep Sea Minerals Resources
 
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Documentary examines the perspectives of different stakeholders involved with deep sea mineral resources in the Pacific.
Views: 733 Pacific Community
The Clouds Will Clear - Deep Sea Mining
 
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Track: Deep Sea Mining Band: The Clouds Will Clear Visuals: Sabine Füreder & Gerold Brunner (http://www.sabine-fuereder.at, http://www.geroldbrunner.com) Written, performed and recorded by The Clouds Will Clear. Drums recorded by Reinhard 'Bux' Brunner at ATS-Records, Austria (www.ats-records.com) Mixed and mastered by Kai Stahlenberg at Kohlekeller Studio B, Germany (www.kohlekeller.de) Cover Photos and Layout by Oli Hummel (www.hummelgrafik.de) ________________________________________________________ The Clouds Will Clear is: Angelo - Guitars, Synths, Samples Tobias - Guitars, Synths Andreas - Bass Gerold - Drums, Visuals https://thecloudswillclear.bandcamp.com/ https://facebook.com/thecloudswillclearmusic/ @thecloudswillclear Contact and Booking: [email protected] © 2018 The Clouds Will Clear, all rights reserved __________________________________________________________________________________ additional footage by: Mitch Martinez Simon Waldock, https://videvo.net, (CC BY) yasudatakahiro, www.vimeo.com (CC BY) Florian Lalanne, www.vimeo.com (CC BY) Pixeldealer, www.vimeo.com (CC BY) Kiril Dobrev, https://videvo.net Videvo, www.videvo.net
Sustainable Seabed Mining: A New Concept For Atlantis II Deep
 
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Research on seabed exploitation and seabed mining is a complex transdisciplinary field that demands for further attention and development. Since the field links engineering, economics, environmental, legal and supply chain research, it demands for research from a systems point of view. This implies the application of a holistic sustainability framework of to analyse the feasibility of engineering systems. The research at hand aims to close this gap by developing such a framework and providing a review of seabed resources. Based on this review it identifies a significant potential for massive sulphides in inactive hydrothermal vents and sediments to solve global resource scarcities. The research aims to provide background on seabed exploitation and to apply a holistic systems engineering approach to develop general guidelines for sustainable seabed mining of polymetallic sulphides and a new concept and solutions for the Atlantis II Deep deposit in the Red Sea. The research methodology adpted will start with acquiring a broader academic and industrial view on sustainable seabed mining through online survey and expert interviews on seabed mining. The experts are chosen according to their knowledge in one or more of the dimensions of seabed mining introduced in the research framework. The Nautilus Minerals case is also reviewd for lessons learned for seabed mining and the presented concept in particular with identification of challaenges and issues. Therafter, a new concept and site specific assessment for Atlantis II Deep is developed. The research undertaken in this study provides a new perspective regarding the sustainable seabed mining. The main contributions of this research are the development of extensive guidelines for key issues in sustainable seabed mining as well as a new concept for seabed mining involving engineering systems, environmental impact, economical benefits, logistics chain supply and legal aspects.
Views: 4672 Dr Hany Elosta
Introducing the NIOZ Deep Sea Science & Technology Centre
 
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Seas and oceans cover approximately 70% of the earth's surface, and most of this is deep sea, an environment about which we still know still very little. The potential for mining of raw materials in these wide expanses is enormous, and the international offshore and maritime industries are increasingly interested in the deep sea. It is generally acknowledged that a sound knowledge of the deep sea environment is crucial for further developing this deep sea mining concept in a responsible and sustainable way to protect valuable and vulnerable parts of the same deep sea environment. Fathoming the depths of the oceans -- even to depths of 6 km and beyond -- has been a part of our core business at NIOZ Royal Netherlands Institute for Sea Research for many decades. Interested? Please contact Ir. Marck Smit, Head of our Deep Sea Science & Technology Centre. His contact details can be found on our web-site www.nioz.nl/deepsea .
Views: 986 NIOZ
[17] Deep Sea Mining- Subnautica
 
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Views: 834 tokshen
Israel Eyes Future of Dead Sea Mining Rights
 
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TRENDING | As the Dead Sea continues to shrink and disappear more rapidly, mining rights will become a greater point of contention between the parties involved in the body of water's maintenance. Our Ariel Levin-Waldman and Jessi Satin have the story.
Views: 349 i24NEWS English
India Goes Deep Sea To Mine Gold
 
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Subscribe to Times Of India's Youtube channel here: http://goo.gl/WgIatu India has begun an exploration for mineral deposits and precious metals like gold and silver in the Southern Indian Ocean. The exploration will also help in studying the chemosynthetic bacteria which forms the base of the food chain. Also Subscribe to Bombay Times Youtube Channel here: http://goo.gl/AdXcgU Social Media Links: Facebook : https://www.facebook.com/TimesofIndia Twitter : https://twitter.com/timesofindia Google + : https://plus.google.com/u/0/+timesindia/posts 'Download TOI app on Android & iPhone and WIN free recharge coupon worth Rs. 50/- from Paytm - http://goo.gl/AvRYmM Times Of India's Official YouTube channel is managed by Culture Machine Media Pvt Ltd.
Views: 2522 The Times of India
SAMI Project Deep Ocean Exploration
 
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This video is about Deep Ocean Exploration: The links to all photos: * http://scopeblog.stanford.edu/2015/09/01/annoying-anemones-shed-light-on-coral-reef-biology/ * http://www.wired.com/2009/11/stunning-image-of-sediment-plumes-in-gulf-of-mexico/ * https://www.revealnews.org/article-legacy/heres-what-you-need-to-know-about-the-deep-sea-gold-rush/ * http://www.independent.co.uk/news/science/incredible-images-of-undiscovered-deep-sea-creatures-released-after-puerto-rico-ocean-floor-10282052.html * http://www.popularmechanics.com/science/animals/g210/strange-sea-animals-2/ * http://clione.ru/work/lophophorata/ * http://scubadiverlife.com/2015/05/10/the-ocean-as-a-medical-resource/ * http://planetanimalzone.blogspot.ca/2011/05/skate-and-variant-skates-fish-atlantic.html * http://www.businessinsider.com.au/australian-researchers-discover-a-powerful-pain-killer-in-sea-snail-venom-2014-3 * http://www.captivereefs.com/forum/large-polyp-stoney-lps-corals/halloween-skeletons-24124/ * http://www.coralworld.co.il/en/SharksWorld * http://viralluxury.com/everything-you-need-to-know-about-james-cameron-and-the-deep-sea-challenge/ * http://earthfirstjournal.org/newswire/2014/04/26/deep-sea-mining-is-about-to-become-a-reality/ *http://www.greenpeace.org/international/en/campaigns/oceans/marine-reserves/deep-sea-mining/ * http://scienceblogs.com/gregladen/2014/06/14/does-keeping-a-cell-phone-in-your-pocket-reduce-male-infertility/
Views: 214 Amanda Warren